Various examples are provided related to software and hardware architectures that enable a lightweight incremental encryption scheme that is implemented on a System-on-chip (SoC) resource such as a network interface. In one example, among others, a method for incremental encryption includes obtaining, by a network interface (NI) of a sender intellectual property (IP) core in a network-on-chip (NoC) based system-on-chip (SoC) architecture, a payload for communication to a receiver intellectual property (IP) core; identifying, by the NI, one or more different blocks between the payload and a payload of a previous packet communicated between the sender IP core and the receiver IP core; and encrypting, by the NI, the one or more different blocks to create encrypted blocks of an encrypted payload.

A computer program product includes a non-volatile computer readable medium and non-transitory program instructions embodied therein, the program instructions being configured to be executable by a processor to cause the processor to perform various operations. The operations may include obtaining first encoded data that encodes information of a first party, obtaining second encoded data that encodes information of a second party, performing a forward mashup algorithm on the first encoded data and second encoded data to form a third data set, and providing the third data set to the first party as a mashup two-dimensional barcode.

In accordance with an embodiment, an electronic device includes a secure element configured to implement a plurality of operating systems; and a near field communication module coupled to the secure element by a single bus and by a routing circuit configured to route routing data between the plurality of operating systems and a receive circuit of the near field communication module.

Systems and methods for managing concurrent secure elements on a mobile device to coordinate with an application or “app” running on the mobile device and an appropriate communications protocol for conducting transactions using the mobile device include: informing, by the processor, the reader device of a preferred app and a communication protocol usable by the preferred app; receiving, by the processor, information about which apps and communication protocols are supported by a reader for processing a transaction; locating, by the processor, a secure element supporting an app and a communication protocol supported by the reader; channeling the communication protocol for the specific configuration of the app and the supporting secure element; activating the secure element that supports the app; and processing, with the activated secure element, using the supported app and communication channel, the transaction with the reader.

Techniques for changing the presentation of information on a user interface based on presence are described. In an example, a computer system determines, based on an image sensor associated with the system, a first presence of a first user relative to a computing device. The computer system also determines an identifier of the first user. The identifier is associated with operating the computing device. The operating comprises a presentation of the user interface by the computing device. The computer system also determines, based on the image sensor, a second presence of a second person relative to the computing device. The computer system causes an update to the user interface based on the second presence.

A protected memory source device including removable non-volatile memory durably stores a signature such as a serial number or identifier, which is used to mark protected multimedia content legally stored on the protected memory device. The protected multimedia content is moved from the source device to another device, such as a target device used to aggregated protected content in a library. Moving the protected multimedia content involves replacing a source-specific header, comprising digital rights management metadata and/or other security metadata allowing only a device having the source device signature access to the content, with a target-specific header comprising digital rights management metadata and/or other security metadata allowing only a device having the target device signature access to the content. The transfer is done using one of a variety of transfer methods with either a trusted or un-trusted host system connecting the source device to the target device.

Security system for protecting a vehicle electronic system by selectively intervening in the communications path in order to prevent the arrival of malicious messages at ECUs, in particular at the safety critical ECUs. The security system includes a filter which prevents illegal messages sent by any system or device communicating over a vehicle communications bus from reaching their destination. The filter may, at its discretion according to preconfigured rules, send messages as is, block messages, change the content of the messages, request authentication or limit the rate such messages can be delivered, by buffering the messages and sending them only in preconfigured intervals.

A method including receipt of information indicative of a first viewer being able to visually perceive at least part of a display and information indicative of a second viewer being able to visually perceive at least part of the display, determination of first viewer private content associated with the first viewer, receipt of information indicative of the second viewer being unable to visually perceive at least part of the display, causation of display of the first viewer private content based, at least in part, on the second viewer being unable to visually perceive at least part of the display, receipt of information indicative of the second viewer being able to visually perceive at least part of the display, and termination of display of the first viewer private content based, at least in part, on the second viewer being able to visually perceive at least part of the display is disclosed.

The present disclosure relates to the field of computer technologies and it discloses a method for encrypting a picture performed at a sending device, the method including: obtaining, by a sending device raw data of a to-be-encrypted picture, a first key, a second key, and location information that is used for adding disturbance data to the raw data; generating the disturbance data, and adding the disturbance data to the raw data according to the location information, to obtain first data; encrypting the first data by using the first key, to obtain the second data, and encrypting the first key and the length of the disturbance data by using the second key, to obtain first encrypted data; and sending the second data, the first encrypted data, and the second key to a receiving device.

Security system for protecting a vehicle electronic system by selectively intervening in the communications path in order to prevent the arrival of malicious messages at ECUs, in particular at the safety critical ECUs. The security system includes a filter which prevents illegal messages sent by any system or device communicating over a vehicle communications bus from reaching their destination. The filter may, at its discretion according to preconfigured rules, send messages as is, block messages, change the content of the messages, request authentication or limit the rate such messages can be delivered, by buffering the messages and sending them only in preconfigured intervals.